The rule of thumb in embedded system design has been that addinghardware increases power demands. The careful use of hardwareaccelerators, however, inverts the rule: adding hardware can reducepower.

Discover the essentials of embedded software and how hardware engineers can efficiently handle software responsibilities.

Where code meets reality, embedded systems come at that intersection, demanding precision, efficiency, and careful planning.

As the move to physical AI speeds up, how do you make sure these capabilities become broadly accessible and not limited to ...

Embedded system licensing is the combination of hardware and software into a single offering, converting traditional hardware vendors into innovative software vendors. This enables manufacturers of ...

Defining device drivers Discussing the difference between architecture-specific and board-specific drivers Providing several examples of different types of device drivers Most embedded hardware ...

Embedded systems are increasingly prevalent in nearly every aspect of human life. Innovations made possible by embedded systems are making our lives healthier, safer, cleaner, and more stimulating.

Moore's Law continues to drive chip complexity and performance to new highs, while stressing and periodically “breaking” existing design flows. Fortunately for consumers of electronic design ...

One of the biggest bottlenecks in the software development process for electronic products is that hardware is not available until late in the cycle. That means embedded software developers need to ...

In the world of embedded systems, the language debate is alive and well. For years, C has dominated this space, its minimalistic design and low-level control giving embedded engineers the tools to ...